Feeders Article

CARLIN GOLD MINING COMPANY CARLIN, NEVADA

The Carlin gold.deposit i s located in northeastern Nevada about thirty-five mi les by road from the town of Elko. Following the staking of s ix square miles 'of ground, a drilling program outlined a fine ore body mineable by open pitting. The resulting mine turned out to be the larges t open-pit gold operation in the world, until the Rosario Pueblo Viejo operation was started in 1975. Because of the high profitability forecast a t the then $35 gold price, construction of a 2000 stpd mill was commenced on a c r a sh program and was completed for Newmont Mining Corporation by Bechtel Corporation in ten months. Production was star ted in early 1965.

The gold mineralization occurs in marine-type sediments, chiefly s i l t - stones and limey shales, and the ore characteris t ics make for a difficult materials-handling problem. A t 5% to 670 moisture the ore i s dusty during crushing, but even a light rain or snowfall virtually turns the mater ia l into a slurry. Crushing this sticky o re below 314 in. (19 m m ) in the d ry season and 1 in. (25.4 m) during the winter i s extremely difficult and leads to problems with conveyors, chutes, and fine o r e storage.

The initial flowsheet for Carlin's crushing plant used a 5 f t by 22 ft (1.52 .rn by 6. 7 m ) vibrating feeder -grizzly under the 60 -ton dump pocket for feeding the 42 in. by 48 in. (1067 m m by 1220 m m ) single toggle jaw crusher and a 5* ft (1.52 m ) standard cone crusher in closed circuit with a 6 ft by 12 f t (1.83 m by 3.66 m ) vibrating double - deck screen. Because continual packing of fines in the vibrating feeder pan would cause frequent plant shut -downs to remove the fines with jack hammers, the'decision was made to replace the vibrating unit with an apron feeder and stationary grizzly ahead of the jaw crusher. A dribble belt was also installed under the apron feeder. This installa- tion has greatly improved the feeding of the pit run o r e to the .primary jaw crusher.

Mining a t Carlin is done by a 5 yd shovel and 7Q and 10 yd front-end loaders , and ore transport i s by several s izes of trucks f rom 30 to 75 tons capacity. These pit haulage trucks dump onto stockpiles adjacent to the p r imary crusher. Ore i s then fed to the dump hopper by front- end loaders only when the crushing plant i s operating. This extra handling procedure i s necessary because plant delays caused by problems with wet ore in the secondary crusher resulted in the ore setting up o r packing in the dump pocket. Solidified material in the dump pocket would in turn delay truck haulage. The substitution of an

apron feeder for the vibrating -feeder and the use of rubber-covered screens have contributed greatly to overcoming wet o r e problems. ,In addition, .blending different types of ores fed to the plant has aided crushing.

A control room i s located above the dump pocket where the operator can clearly observe and control the front-end loader feeding rate, apron feeder, jaw crusher , three conveyors, screen, and secondary cone crusher. Because of the sticky nature of the Carlin ores, crushing and screening a r e important and problem procedures. Through good visual observation and with all equipment controls a t hand in the control room, one operator handles all pr imary and secondary crushing plant functions. Solid-state instrumentation i s used fo r a l l measurements and control functions brought to the control room panels. The control room i s heated by a unit separated from the crushing plant building and i s cooled with an Alpine evaporator-cooler mounted on the roof.

The peculiar nature of the wet, sticky Carlin o re which i s s imi lar to later i te -type material ra ises the question of using secondary reduction crushing with the auxiliary conveyors, screens, chutes, etc. , following pr imary crushing. With eleven years of experience in the mater ia ls - handling problems of Carlin ores coupled with operating information on similar materials , the authors believe a more suitable flowsheet would encompass semi-autogenous grinding. This flowsheet would eliminate crushing after the primary jaw, with the attendant conveyors, screen, chutes, and more particularly the fine o re bins with their feeders and conveyors and finally the conventional grinding mills. In place of a l l this equipment would be the apron feeder, stationary grizzly, jaw crusher, and a conveyor which would direct ly feed a semi- autogenous mill. The ground product a t about 48 mesh could be stored in the large-diameter holding tanks equipped with rakes and circulating pumps which a r e successfully used for this purpose in the cement industry. The s lu r ry would be withdrawn at a measured flow ra te for processing or final grinding i f necessary. In this type of flowsheet for wet, sticky o res which present problems in a jaw crusher , a Wobbler feeder between the apron feeder and the crusher to remove the fines has proved a t t imes to be a good choice.

Rosario Resources did install semi -autogenous grinding a t their 8000 stpd gold and si lver plant, Pueblo Viejo, in the Dominican Republic. Pi t-run o re i s dumped over a grizzly with 16 in. (406 mrn) square openings into a 750-ton bin from which it i s withdrawn by two 54 in. by 34 ft (1.37 m'.by 10.36 m ) apron feeders and transported directly to the two 18 f t diameter (5. 5 m) by 6 f t long (1.825 m )

Cascade mil ls by parallel 48 in; (1.2 m ) wide belts. Because the ore body contains more lenses and masses of quartz than expected, a jaw crusher i s to be installed ahead of the semi-autogenous units. The pit-run ore a t 8% moisture could not be crushed in a normal crushing circui t to ball mill size feed; hence, crushing-grinding by semi - autogenous methods was adopted. A jaw crusher should solve the problem of oversize, hard boulders.

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CARLIN GOLD MINING COMPANY

Carlin, Nevada

O r e type

Concentra tor capaci ty

Shovel and loade r s i z e

T ruck s i ze s

P r i m a r y c r u s h e r

Connected and consumed horsepower

Hydrothermal gold', s i l t s tones , and l imey shales : 143 #/cu ft in pla e S (2891 kg/m )

2,50U stpd

5 yd, and 7$and 10 yd (3 .8 , 5.7, and 7 .6 rn31

30, 35, 50, 65, and 75 s t

42" x 48" Pioneer s ingle toggle jaw (1. 07 m x 1. 22 m )

200 and 165

. . Capacity of dump pocket 60 s t

Method of breaking o r removing overs ize

Open s ide se t t ing (product s i z e )

C r u s h e r f eede r

Ope rating data :

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Effective operating hour s

Nominal capacity

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Backing f o r l i ne r s

J a w and cheek plate l ife

L ine r m a t e r i a l s

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O r e bins a f t e r c rushing plant

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Secondary blasting

4 in. (102 mm)

Apron f eede r , 54" s 20' 4 314" (1. 37 m x 6. 22 m)

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6 p e r shift

200 s t / hour

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95 - 97% . not applicable

1 yea r each

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15 tons ' .

Three a t 1800 tons each ( a f t e r secondary c r u s h e r )

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